SU1474334A1 - Gaslift plant - Google Patents

Abstract

The invention makes it possible to increase the efficiency of a gas-lift installation by reducing gas consumption and hydraulic losses along the length of the riser. The mixer 2 of the lifting pipe 1 is connected via a pipeline 3 to a steam-jet compressor 4. The lower part of the pipe 1 is made in the form of a confuser 5, which makes it possible to approximate the speed of an air mixture to the speed value in the upper part of the pipe 1. 2 Il.

Description

The invention relates to pump construction, in particular, to a gas lift device.

The purpose of the invention is to increase the economy by reducing gas consumption and hydraulic losses along the length of the riser.

FIG. 1 is a diagram of a gas-lift unit; in fig. 2 - graphs of changes in the volumetric flow rate of the working fluid.

The gas-lift unit contains a lifting pipe 1 with a mixer 2 connected via a gas line 3 to a steam-jet compressor 4, with the lower part of the lifting pipe 1 made in the form of a confuser 5.

Gaslift installation works as follows.

When the steam-jet compressor 4 is turned on, the steam-air mixture through the gas line 3 is fed to the mixer 2 s where it is mixed with the liquid to be drawn through the suction pipe 4. The gas-liquid mixture rises through the confuser 5, and then along the lifting pipe 1 into the air separator, where the mixture separates into the gaseous phase (air and uncondensed vapor) discharged into the atmosphere, and the liquid phase discharged separately.

In the proposed installation, the change in the volume flow rates of the components of the vapor-air mixture along the length of the riser tube 1 and the confuser 5 occurs along the entire length from the mixer 2 to the air separator. Moreover, steam condensing and cooling reduces its volume from the initial inlet to mixer 2 to zero at some point of the riser 1 (curve 2, Fig. 2), and the air expands due to a decrease in pressure in the riser 1 from the pressure in the mixer 2 to the atmospheric pressure will increase its

volume (curve 1, figure 2). Curve 3 in FIG. 2 represents the change in the total volume of the vapor-air mixture along the length of the lift mixture.

s

In order to ensure the process of lifting a given amount of liquid in a vertical pipe with a gaseous working fluid, it is necessary that in each section of the lifting pipe 1 the volume flow rate of the gas should be such as to ensure the transport speed of the air mixture. Denote the volume flow of a gaseous body through QrTp. If in one of the gas lift riser sections 1, the gas flow is less than the QrTp value, the lifting process is terminated due to the loss of transport speeds. If the volume flow rate of the gas is greater than Pgtr, additional hydraulic losses occur due to an increase in the speed of the aero hydraulic mixture in the riser. This increases the energy intensity of the air lift and reduces its efficiency,

Performing the lower part of the riser in the form of a confuser allows the speed of the aero hydraulic mixture in the lower part of the riser to be approached to the value that the aero fluid mixture has in the upper part of the riser, i.e. eliminates additional hydraulic losses at the bottom of the riser.

Claims (1)

Invention Formula A gas lift unit comprising a lifting pipe with a mixer connected via a gas pipeline to a steam-jet compressor, characterized in that, in order to increase efficiency by reducing gas consumption and hydraulic losses along the length of the lifting pipe, the lower part of the lifting pipe is made in the form of a confuser. H h (m) FIG. 2 VmaxV ()